Global ETD Search

31	Toxicity and signaling mechanisms underlying interactions of Stachybotrys chartarum toxins with lung macrophages Wang, Huiyan January 2011 (has links) No description available. Toxicology Stachybotrys chartarum Alveolar macrophages Macrocyclic trichothecene Signaling transduction Ribosomal protein DNA damage
32	The regulation of G protein-coupled receptor (GPCR) signal transduction by p90 Ribosomal S6 Kinase 2 (RSK2) / Sheffler, Douglas James. January 2006 (has links) Thesis (Ph. D.)--Case Western Reserve University, 2006. / [School of Medicine] Department of Biochemistry. Includes bibliographical references. Available online via OhioLINK's ETD Center.
33	Insights into the ribosomal, extra-ribosomal and developmental role of RP L13a in mammalian model Kour, Ravinder 10 December 2019 (has links) No description available. Molecular Biology Developmental Biology GAIT Ribosomal protein L13a rRNA ribosomes Inflammation extra-ribosomal functions embryonic development embryonic lethality
34	The Novel Phosphatidylinositol-3-Kinase (PI3K) Inhibitor Alpelisib Effectively Inhibits Growth of PTEN-Haploinsufficient Lipoma Cells Kirstein, Anna S., Augustin, Adrien, Penke, Melanie, Cea, Michele, Körner, Antje, Kiess, Wieland, Garten, Antje 06 April 2023 (has links) Germline mutations in the tumor suppressor gene PTEN cause PTEN Hamartoma Tumor Syndrome (PHTS). Pediatric patients with PHTS frequently develop lipomas. Treatment attempts with the mTORC1 inhibitor rapamycin were unable to reverse lipoma growth. Recently, lipomas associated with PIK3CA-related overgrowth syndrome were successfully treated with the novel PI3K inhibitor alpelisib. Here, we tested whether alpelisib has growth-restrictive effects and induces cell death in lipoma cells. We used PTEN-haploinsufficient lipoma cells from three patients and treated them with alpelisib alone or in combination with rapamycin. We tested the effect of alpelisib on viability, proliferation, cell death, induction of senescence, adipocyte differentiation, and signaling at 1–100 M alpelisib. Alpelisib alone or in combination with rapamycin reduced proliferation in a concentrationand time-dependent manner. No cell death but an induction of senescence was detected after alpelisib incubation for 72 h. Alpelisib treatment led to a reduced phosphorylation of AKT, mTOR, and ribosomal protein S6. Rapamycin treatment alone led to increased AKT phosphorylation. This effect could be reversed by combining rapamycin with alpelisib. Alpelisib reduced the size of lipoma spheroids by attenuating adipocyte differentiation. Since alpelisib was well tolerated in first clinical trials, this drug alone or in combination with rapamycin is a potential new treatment option for PHTS-related adipose tissue overgrowth. info:eu-repo/classification/ddc/610 ddc:610
35	Characterization of a Novel Protease in Staphylococcus aureus Johnson, Adam L 01 January 2015 (has links) A newly discovered cysteine protease, Prp, has been shown to perform an essential, site-specific cleavage of ribosomal protein L27 in Staphylococcus aureus. In Firmicutes and related bacteria, ribosomal protein L27 is encoded with a conserved N-terminal extension that must be removed to expose residues critical for ribosome function. Uncleavable and pre-cleaved variants were unable to complement an L27 deletion in S. aureus, indicating that this N-terminal processing event is essential and likely plays an important regulatory role. The gene encoding the responsible protease (prp) has been shown to be essential, and is found in all organisms encoding the N-terminal extension of L27. Cleavage of L27 by Prp represents a new target for potential antibiotic therapy. In order to characterize this protease, Prp has been overexpressed and purified. Using an assay we have developed, based on cleavage of a fluorogenic peptide derived from the conserved L27 cleavage sequence, we have undertaken an analysis of the enzyme kinetics and substrate specificity for Prp cleavage and tested predictions made based on a structural model using active-site mutants. ribosomal protein L27 cysteine protease site-specific cleavage N-terminal processing substrate specificity enzyme kinetics active-site model Bacteria Bacterial Infections and Mycoses Biochemistry Enzymes and Coenzymes Microbiology Molecular Biology
36	Ribozomálny proteín Rpl22 reguluje zostrih svojich vlastných transcriptov / Ribosomal protein Rpl22 regulates the splicing of its own transcripts Nemčko, Filip January 2018 (has links) Saccharomyces cerevisiae is an intron-poor organism with introns present in only 5% of its genes. The most prominent group of intron-containing genes are ribosomal protein (RP) genes. They are highly expressed and most of them are present as two paralogs. Parenteau et al. described the existence of intron- dependent intergenic regulatory circuits controlling expression ratios of RP paralogs. In this project, we did not confirm the regulation in 6 out of 7 tested regulatory circuits. We validated the regulation between RPL22 paralogs. We further showed that Rpl22 protein blocks the pre-mRNA splicing of both paralogs, with RPL22B paralog being more sensitive. Rpl22 protein binds to the stem-loop of RPL22B intron - disruption of the binding domain of Rpl22 proteins leads to loss of interaction. Moreover, the regulation seems to be working the same way in yeast Kluyveromyces lactis, which has only a single RPL22 copy. Overall, these results lead to better understanding of intergenic regulation, which adjusts the expression ratio between functionally different RPL22 paralogs. Key words introns, ribosomal protein genes, Rpl22, RPL22 paralogs, pre-mRNA splicing, Saccharomyces cerevisiae
37	Fonction de la protéine cellulaire RISP (Reinitiation Supporting Protein) dans la reinitiation de la traduction chez les plantes / Functional role of the Reinitiation Supporting Protein (RISP) in plant translation initiation and reinitiation Mancera-Martinez, Eder Alberto 24 November 2014 (has links) Chez Arabidopsis, la protéine RISP est détournée par le virus CaMV pour assurer, ensemble avec la protéine virale TAV, la traduction de son ARN polycistronique. RISP a été identifiée comme une cible de la voie de signalisation de TOR et il a été montré que sa phosphorylation est requise pour promouvoir la réinitiation de la traduction activée par TAV. Les résultats que j’ai obtenus suggèrent que RISP, lorsqu’elle n’est pas phosphorylée, intervient ensemble avec eIF3, au niveau du complexe de pré-initiation 43S pour recruter le complexe ternaire grâce à l’interaction entre RISP et la sous-unité b du facteur eIF2. Il s’est avéré que RISP a la capacité, lorsqu’elle est phosphorylée, d’interagir non seulement avec la protéine ribosomique eL24 mais également avec eS6. Nos résultats indiquent que la liaison entre les sous-unités ribosomiques 60S et 40S sous l’effet de RISP, est régulée par la voie de TOR et qu’elle joue un rôle important dans le contrôle de la réinitiation de la traduction. / Many factors are required to recruit the tRNAi and a 60S ribosomal subunit to the 40S ribosomal subunit preinitiation complex. This recruitment is normally strictly limited during reinitiation of translation if factors recruited during the primary translation event are shed from 40S. However, factor retention can occur during long ORF translation if the CaMV viral factor TAV is present. RISP is a downstream target of TOR and found either within the 43S preinitiation complex, if bound to eIF3, and/or attached to 60S, if phosphorylated by TOR. We show here that RISP interacts with subunit b of eIF2 before phosphorylation. Critically, TOR activation up-regulates phosphorylation of both RISP and eS6 as well as the binding of both factors. Importantly, eS6-deficient plants are less active in TAV-mediated reinitiation and are thus less susceptible to CaMV infection. It is attractive to propose that eS6 phosphorylation contributes to retention and re-use of 60S during 40S scanning. Reinitiation de la traduction Para-rétrovirus TAV RISP Protéine ribosomique eS6 Voie de signalisation de TOR 60S joining TOR signaling pathway S6K1 Ribosomal protein eS6 CaMV EIF3 Gravitropic response 572.8 579.2
38	Identificação de um fator do hospedeiro, RPS5A, envolvido na interação com a proteína de movimento (MP) de geminivírus / Identification of movement protein MP-intaracting host facotrs Balmant, Kelly Mayrink 18 February 2011 (has links) Made available in DSpace on 2015-03-26T13:42:20Z (GMT). No. of bitstreams: 1 texto completo.pdf: 2368630 bytes, checksum: cd9eaf09470bcfbf6727027ecade3b46 (MD5) Previous issue date: 2011-02-18 / Conselho Nacional de Desenvolvimento Científico e Tecnológico / The movement protein MP from bipartite geminivirus (begomovirus) facilitates the cell-to-cell and long-distance transport of viral DNA in addition to affecting viral pathogenicity. To identify host factors that interact with MP, initially a cDNA library prepared from CaLCuV (Cabbage leaf curl virus)-infected Arabidopsis leaf mRNA was generated in a pEXPAD502 vector. To select for interactions between the bait BD-MP and cDNA library-encoded proteins, double transformants (BD-MP+ cDNA-AD) were plated on medium lacking histidine but supplemented with 3-aminotriazole (3-AT). From 5 x 105 transformants screened, two clones, encoding AtEXL3 (Exordium Like 3), a cell wall protein, and AtRPS5A, ribosomal protein S5A, displayed histidine/adenine auxotrophy and activate LacZ expression, on X-gal indicator plates. Expression of a full-length RPS5A cDNA fused to the Gal4 activation domain in yeast carrying BD-MP promoted growth of the double transformants in the absence of histidine and presence of 3-AT, in addition to activating high levels of LacZ expression. Furthermore, the interaction between MP and RPS5A was confirmed in vitro by pull down assays. Analysis of RPS5A gene expression by qRT-PCR demonstrated that the accumulation of rpS5A transcripts is suppressed by geminivirus infection. Based on these results and others, a functional model for the MP-RPS5A interaction is discussed. / A proteína de movimento (MP) de geminivírus bissegmentados (begomovirus) facilita o movimento célula-célula, bem como o movimento a longas distâncias do DNA viral, além de influenciar na patogenicidade viral. Com o objetivo de identificar fatores do hospedeiro que interagem com MP, inicialmente foi construída uma biblioteca de cDNA a partir de mRNAs de folhas de Arabidopsis infectadas com CaLCuV (Cabbage leaf curl virus) no vetor pEXPAD502. Para selecionar por interações entre a proteína quimérica BD-MP e proteínas codificadas pelos cDNAs da biblioteca, transformantes duplos (BDMP+ cDNA-AD) foram plaqueados em meio deficiente de histidina e suplementados com 3-amino triazol (3-AT). De um total de 5 x 105 transformantes escrutinados, dois clones, codificando EXL3 (Exordium Like 3), uma proteína de parede celular, e RPS5A, proteína ribossomal S5A, apresentaram auxotrofia a histidina e expressão do gene repórter LacZ, em placas indicadoras de X-gal. Expressão do cDNA completo de RPS5A fusionado ao domínio de ativação de Gal-4 em leveduras, carreando BD-MP, promoveu crescimento dos transformantes na ausência de histidina e presença de 3-AT, além de ativar altos níveis de expressão de LacZ.. Além disso, a interação entre MP e RPS5A foi confirmada in vitro por ensaios de pull down. Análises de expressão do gene RPS5A por meio de qRT-PCR demonstraram que o acúmulo de seus transcritos é reprimido por geminivírus. Baseado nestes resultados e de outros, um modelo funcional para interação de MP com RPS5A é discutido. Geminivírus Interação protéica Proteína de movimento Proteína ribossomal S5A Geminivirus Protein interaction Movement protein Ribosomal protein S5A
39	La protéine ribosomique S1 d'Escherichia coli au carrefour de la traduction et de la régulation de l'expression des gènes / Escherichia coli ribosomal protein S1 at the crossroad between translation and gene expression Duval, Mélodie 06 November 2015 (has links) La traduction est une étape clef de l’expression des gènes, et mon travail a consisté à étudier l’implication de la protéine ribosomique S1 d’Escherichia coli dans l’initiation de la traduction des ARNm structurés. Mes résultats montrent que 1) S1 est requise pour la formation du complexe d’initiation des ARNm portant une séquence SD faible et/ou des structures stables, 2) elle est dotée d’une activité chaperonne, débobinant les ARNm afin de les placer dans le canal de décodage ; et 3) le ribosome favorise son action. Par la suite, j’ai montré un rôle inattendu de S1 dans la régulation post-transcriptionnelle médiée par les ARNnc. En effet, la dégradation rapide de l’ARNm sodB, induite par l’ARNnc RyhB en absence de fer, est perdue dans une souche dont l’extrémité C-terminale de S1 a été supprimée, montrant ainsi un lien fonctionnel entre S1 et le dégradosome. Ainsi, S1 exerce de multiples fonctions qui se placent au carrefour de la traduction et de la régulation de l’expression des gènes / The translation is a key step for the gene expression, and the aim of my PhD was to analyze the involvment of Escherichia coli ribosomal protein S1 in the translation initiation of structured mRNAs.My results show that 1) S1 is required for the establishment of the active translation initiation complex involving mRNAs with a weak SD sequence and/or stable structures, 2) S1 has a RNA chaperone activity, unwinding the mRNA in order to accommodate it in the decoding channel, and 3) the ribosome promotes its activity.In the second part of my thesis, I unexpectedly showed that S1 is involved in the ncRNAmediated regulation. Indeed, the fast degradation of sodB mRNA, induced by RyhB ncRNA under iron depletion, is impaired in a strain depleted of the C-terminal part of S1 protein, thus highlighting a functional link between S1 and the degradosome.All in one, my results show that S1 is endowed with multiple functions, at the cross-road between translation and regulation of gene expression. Protéine ribosomique S1 ARNm structuré Traduction Dégradosome ARNnc Ribosome Régulation post-transcriptionnelle Ribosomal protein S1 Structured mRNA Translation initiation Degradosome NcRNA-mediated regulation Ribosome 572.8
40	Ribozomálny proteín Rpl22 reguluje zostrih svojich vlastných transcriptov / Ribosomal protein Rpl22 regulates the splicing of its own transcripts Nemčko, Filip January 2018 (has links) Saccharomyces cerevisiae is an intron-poor organism with introns present in only 5% of its genes. The most prominent group of intron-containing genes are ribosomal protein (RP) genes. They are highly expressed and most of them are present as two paralogs. Parenteau et al. described the existence of intron- dependent intergenic regulatory circuits controlling expression ratios of RP paralogs. In this project, we did not confirm the regulation in 6 out of 7 tested regulatory circuits. We validated the regulation between RPL22 paralogs. We further showed that Rpl22 protein blocks the pre-mRNA splicing of both paralogs, with RPL22B paralog being more sensitive. Rpl22 protein binds to the stem-loop of RPL22B intron - disruption of the binding domain of Rpl22 proteins leads to loss of interaction. Moreover, the regulation seems to be working the same way in yeast Kluyveromyces lactis, which has only a single RPL22 copy. Overall, these results lead to better understanding of intergenic regulation, which adjusts the expression ratio between functionally different RPL22 paralogs. Key words introns, ribosomal protein genes, Rpl22, RPL22 paralogs, pre-mRNA splicing, Saccharomyces cerevisiae

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